CN113513824A - Air conditioner defrosting control method and device and air conditioner - Google Patents

Abstract

The invention provides an air conditioner defrosting control method and device and an air conditioner. The defrosting control method of the air conditioner comprises the following steps: controlling the air conditioner to be in a heating mode; obtaining outdoor environment temperature value T_aoAnd a continuous heating time period t; t is not more than-5 DEG C_aoNot more than 7 ℃, and when the air conditioner keeps the heating mode, according to the t control the air conditioner carries out the strengtheningAnd (5) defrosting. The problem of when the air conditioner carries out the defrosting, can consume the heat of indoor environment to reduce indoor travelling comfort is solved.

Description

Air conditioner defrosting control method and device and air conditioner

Technical Field

The invention relates to the technical field of air conditioner defrosting, in particular to an air conditioner defrosting control method, an air conditioner defrosting control device and an air conditioner.

Background

When the air conditioner operates in winter for heating, when the evaporation temperature is lower than the dew point temperature and lower than 0 ℃; if the air conditioner is operated for a long time to heat, the outdoor heat exchanger will be frosted, thereby affecting the efficiency of the heat exchanger. Therefore, when frost formation is detected to a certain degree, defrosting needs to be performed in time.

At present, the existing air conditioner judges whether the air conditioner needs defrosting or not by acquiring the running heating time of the air conditioner, the time from last defrosting, the external environment temperature and the temperature monitored by a defrosting temperature sensor.

The defrosting process is judged to be needed and operated as follows: and controlling the four-way valve to change the direction, conveying the high-temperature and high-pressure refrigerant to the outdoor unit for heat release and defrosting, and then conveying the refrigerant subjected to heat release and defrosting to the indoor unit for evaporation and heat absorption through throttling. Therefore, the minimum indoor unit pipe temperature can reach-30 ℃ during defrosting; in order to avoid blowing cold air indoors and ensure the comfort of the indoor environment, the indoor fan is in a closed state during defrosting.

Therefore, when the conventional air conditioner performs defrosting, heat of an indoor environment is consumed, and indoor comfort is reduced.

Disclosure of Invention

The invention solves the problem that the indoor comfort is reduced because the heat of the indoor environment is consumed when the air conditioner defrosts.

In order to solve the above problem, an embodiment of the present invention provides a defrosting control method for an air conditioner, including: controlling the air conditioner to be in a heating mode; obtaining outdoor environment temperature value T_aoAnd a continuous heating time period t; t is not more than-5 DEG C_aoAnd controlling the air conditioner to perform forced defrosting according to the t when the temperature is less than or equal to 7 ℃ and the air conditioner keeps a heating mode.

The existing air conditioner can defrost only when the frosting thickness is judged to a certain degree through the operation heating time, the time away from the last defrosting, the external environment temperature and the temperature monitored by the defrosting temperature sensor. When the external environment temperature is about 0 ℃, the outdoor heat exchanger is easy to frost due to low external environment temperature and high humidity, and the frosting condition is serious.

Through relevant experiments, the frosting degree of the outdoor heat exchanger has an obvious turning point on the heating capacity of the air conditioner, and when the frosting degree reaches or exceeds the turning point, the heating capacity of the air conditioner is rapidly reduced, so that the heating output is insufficient. The user can obviously feel that the heating capacity of the air conditioner is reduced, and even the phenomenon that the indoor temperature is reduced due to the attenuation of the heating capacity can be caused, so that the indoor comfort is seriously influenced.

Compared with the prior art, the technical scheme has the following technical effects: according to related experiments, when the outdoor environment temperature is higher than 7 ℃, the surface of the outdoor heat exchanger is not easy to frost due to the higher temperature; when the outdoor environment temperature is lower than-5 ℃, the surface of the outdoor heat exchanger is not easy to frost due to low temperature and low air humidity. Therefore, when the outdoor environment temperature is-5 ℃ to 7 ℃, the surface of the outdoor heat exchanger is easy to frost, and at the moment, even if the air conditioner does not reach the defrosting condition, namely when the air conditioner continues to keep the heating mode, the air conditioner can be controlled in advance to carry out forced defrosting before the frosting degree reaches the turning point, so that the reduction of the heating capacity of the air conditioner is avoided, and the indoor comfort is improved.

In one embodiment of the invention, the air conditioner is controlled to perform forced defrosting according to the t; the method comprises the following steps: at t₁T is less than or equal to t, and when a shutdown instruction or a warm shutdown instruction is received; wherein, t is₁Is a first preset time length; and controlling the air conditioner to perform forced defrosting and then shutdown or shutdown to a temperature.

The technical effect achieved by adopting the technical scheme is as follows: at this moment, the indoor unit is shut down or meets the condition of shutdown at the temperature, and in order to improve the heating operation effect of the next startup, forced defrosting is firstly carried out, and then shutdown or shutdown at the temperature is carried out.

In one embodiment of the present invention, the t₁Within 30-60 min.

The technical effect achieved by adopting the technical scheme is as follows: according to related experiments, the heating capacity is relatively stable in the first 30min of the heating operation of the air conditioner, and the air conditioner is just in a stable heating state at the moment, so that the next defrosting is not suitable to be rapidly started; and if the heating operation of the air conditioner is over 60min, the surface of the outdoor heat exchanger is usually frosted seriously.

In one embodiment of the invention, the air conditioner is controlled to perform forced defrosting according to the t; further comprising: at t₂When T is less than or equal to T, obtaining indoor environment temperature value T_nAnd indoor environment target temperature value T_n'; wherein, t is₂Is greater than t₁The second preset time duration; at the T_n' with said T_nDifference value Δ T of_n≤T₁When the defrosting is needed, the air conditioner is controlled to perform forced defrosting; wherein, T is₁Is a preset temperature difference value.

In one embodiment of the present invention, said T₁At a temperature of 1-3 ℃.

The technical effect achieved by adopting the technical scheme is as follows: at Δ T_n≤T₁When the defrosting is carried out forcibly, the indoor temperature is not reduced too much, and the indoor comfort is not greatly influenced.

In one embodiment of the invention, the air conditioner is controlled to perform forced defrosting according to the t; further comprising: at t₃T and T are not more than T₁＜ΔT_nWhen the defrosting is needed, the air conditioner is controlled to perform forced defrosting; wherein, t is₃Is greater than t₂For a third predetermined time period.

In one embodiment of the present invention, the t₂At least 60min, and/or, the t is₃At least 90 min.

The technical effect achieved by adopting the technical scheme is as follows: the air conditioner has long continuous heating time, and the indoor temperature does not reach or approach the indoor environment target temperature value set by the user, which indicates that the frosting of the outdoor heat exchanger reaches a certain degree at the moment, and the heat exchange capacity of the outdoor heat exchanger cannot meet the indoor heating output requirement; in order to improve the heating output capacity, even if the defrosting condition is not achieved, forced defrosting is required.

In one aspect of the inventionIn the examples, the values are described as ≦ T at-5 ℃ ≦ T_aoControlling the air conditioner to perform forced defrosting according to the t when the temperature is less than or equal to 7 ℃ and the air conditioner keeps a heating mode; the method comprises the following steps: t is not more than-2 DEG C_aoAnd controlling the air conditioner to perform forced defrosting according to the t when the temperature is less than or equal to 5 ℃ and the air conditioner keeps a heating mode.

The technical effect achieved by adopting the technical scheme is as follows: according to the relevant experiments, when the outdoor environment temperature is between-2 ℃ and 5 ℃, the outdoor heat exchanger is most prone to frost formation, so that forced defrosting is required to be carried out even if defrosting conditions are not met, and the heating comfort is ensured.

On the other hand, the embodiment of the invention also provides a defrosting control device of an air conditioner, which comprises the following components: the heating module is used for controlling the air conditioner to be in a heating mode; an acquisition module for acquiring outdoor environment temperature value T_aoAnd a continuous heating time period t; a forced defrosting module for T being less than or equal to-5 DEG C_aoAnd controlling the air conditioner to perform forced defrosting according to the t when the temperature is less than or equal to 7 ℃ and the air conditioner keeps a heating mode.

In another aspect, an embodiment of the present invention further provides an air conditioner, including a memory storing a computer program and a package IC, where the computer program is read by the package IC and executed by the package IC, and the air conditioner implements the air conditioner defrosting control method according to any one of the above embodiments.

In summary, the above embodiments of the present application may have the following advantages or beneficial effects: before the frosting condition of the outdoor heat exchanger reaches the turning point, forced defrosting can be carried out in advance, indoor comfort is guaranteed, and reduction of indoor temperature due to defrosting is avoided.

Drawings

Fig. 1 is a flowchart illustrating a defrosting control method for an air conditioner according to a first embodiment of the present invention.

Fig. 2 is a block diagram of a defrosting control device 100 for an air conditioner according to a second embodiment of the present invention.

Fig. 3 is a block diagram of an air conditioner 200 according to a third embodiment of the present invention.

Fig. 4 is a block diagram of a readable storage medium 300 according to a fourth embodiment of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

[ first embodiment ] A method for manufacturing a semiconductor device

Referring to fig. 1, a flowchart of a defrosting control method for an air conditioner according to a first embodiment of the present invention is shown. The defrosting control method of the air conditioner comprises the following steps:

and S10, controlling the air conditioner to be in a heating mode.

S20, obtaining outdoor environment temperature value T_aoAnd a continuous heating time period t.

The outdoor environment temperature value T can be obtained through a temperature sensor arranged on an air conditioner outdoor unit_ao(ii) a The continuous heating time period t may be acquired according to a timer.

S30, T is more than or equal to-5 DEG C_aoAnd controlling the air conditioner to perform forced defrosting according to the t when the temperature is less than or equal to 7 ℃ and the air conditioner keeps a heating mode.

Wherein, the air conditioner keeps the heating mode as follows: at the moment, the air conditioner does not reach the defrosting condition, and the normal defrosting process is not started; or the air conditioner does not perform a defrosting process according to the existing defrosting manner. The T is_aoAt the temperature of-5 ℃ to 7 ℃, the outdoor heat exchanger is easy to frost, and forced defrosting needs to be carried out according to the continuous heating time t when the defrosting condition is not achieved, so that forced defrosting is carried out in advance, and the indoor comfort is improved.

Determined according to the relevant experiment, said T_aoThe outdoor heat exchanger is most vulnerable to frost formation at-2 c to 5 c, and it is preferable to perform the step S30 in this case.

The air conditioner defrosting control method is clearly and specifically exemplified by combining the use scenes provided below.

Starting a heating mode for heating a certain type of air conditioner; the air conditioner is obtainedObtaining the external environment temperature value T_ao＝0℃。

A first preset time t preset by the air conditioner₁Setting the t between 30-60 min₁40 min. And starting timing from the starting of the heating mode of the air conditioner to obtain the continuous heating time t of the air conditioner.

For example, when t is 40min, a shutdown instruction is received, or a warm shutdown condition is met; at the moment, the air conditioner performs forced defrosting, and after the forced defrosting is completed, the air conditioner is shut down according to the shutdown instruction, or is shut down at the temperature according to the shutdown instruction at the temperature. Of course, t may also be other time duration greater than 40min, which is not described herein again.

In another case, the air conditioner is preset for a second preset time period t₂At least 60min, e.g. setting said t₂60 min. Can also be at t₁≤t＜t₂When the system is in use, a shutdown instruction is received, or a warm shutdown condition is met; at the moment, the air conditioner also performs forced defrosting firstly, and then performs shutdown according to the shutdown instruction after the forced defrosting is completed, or performs warm shutdown according to the warm shutdown instruction.

And for example at t₂When T is less than or equal to T, the air conditioner acquires a target temperature value T of the indoor environment_n' and periodically acquiring indoor environment temperature value T_n(ii) a Wherein, T is_n' setting a desired value for a user, i.e., the user desires the indoor ambient temperature to reach said T_n'. For example, the current indoor environment temperature value T may be acquired every 1s_n。

For example, when T is 60min, the T is acquired_n' -28 ℃ to obtain said T_nThe temperature is 27 ℃; at this time, the difference Δ T between the two_n1 ℃ is set. And the preset temperature difference T set by the air conditioner₁At 1 to 3 ℃, for example, the T is set₁2 deg.c. And said Δ T_n≤T₁，

At this time, the air conditioner is controlled to perform forced defrosting. Since the indoor ambient temperature is already very close to the T set by the user_n', so, forceDuring defrosting, the indoor temperature is not greatly reduced, and the indoor comfort is not greatly influenced. Of course, t may also be other time duration greater than 60min, which is not described herein again.

In yet another case, the air conditioner is preset for a third preset time period t₃At least 90min, e.g. setting said t₃90 min. T may also be satisfied at said t₂≤t＜t₃The air conditioner obtains a target temperature value T of the indoor environment_n' and periodically acquiring indoor environment temperature value T_nAnd satisfy Δ T_n≤T₁And controlling the air conditioner to perform forced defrosting.

E.g. at t₃When T is less than or equal to T, the air conditioner also obtains the target temperature value T of the indoor environment_n' and periodically acquiring indoor environment temperature value T_n. For example, when T is 90min, the T is acquired_n' -28 ℃ to obtain said T_nThe temperature is 24 ℃; at this time, the difference Δ T between the two_n4 deg.c. And the T set by the air conditioner₁2 deg.c. And said Δ T_n＞T₁And at this time, controlling the air conditioner to perform forced defrosting. At this time, the air conditioner is continuously heated for 90min, and the indoor environment temperature does not reach the target indoor environment temperature set by the user, which indicates that the outdoor heat exchanger is frosted to a certain extent, the heat exchange capacity of the outdoor heat exchanger cannot meet the heating output requirement of the indoor unit, and in order to improve the heating output, the defrosting operation is required. Of course, t may also be other time duration greater than 90min, which is not described herein again.

[ second embodiment ]

Referring to fig. 2, a block diagram of a defrosting control device for an air conditioner according to a second embodiment of the present invention is shown. The air conditioner defrosting control device 100 includes, for example: a heating module 110 for controlling the air conditioner to be in a heating mode; an obtaining module 120 for obtaining the outdoor ambient temperature value T_aoAnd a continuous heating time period t; a forced defrosting module 130 for T being less than or equal to-5 DEG C_aoNot more than 7 ℃, and when the air conditioner keeps the heating mode, controlling the air conditioner to carry outAnd forced defrosting.

In a specific embodiment, the heating module 110, the obtaining module 120, and the forced defrosting module 130 of the air conditioner defrosting control apparatus 100 cooperate to implement the air conditioner defrosting control method described in the first embodiment, which is not described herein again.

[ third embodiment ]

Referring to fig. 3, which is a block diagram of an air conditioner according to a third embodiment of the present invention, the air conditioner 200 includes, for example, a package IC220 and a memory 210 electrically connected to the package IC220, the memory 210 stores a computer program 211, and when the computer program 211 is read by the package IC220 and is run, the air conditioner 200 implements the air conditioner defrosting control method according to the first embodiment.

In one embodiment, the packaged IC220 is, for example, a processor chip electrically connected to the memory 210 for reading and executing the computer program. The packaged IC220 may also be a packaged circuit board that encloses a processor chip that can read and execute the computer program 211; of course, the circuit board may also encapsulate the memory 210.

On the other hand, the processor chip may further be provided with the air conditioner defrosting control device 100 according to the second embodiment, and the processor chip may implement the air conditioner defrosting control method according to the first embodiment through the air conditioner defrosting control device 100, which is not described herein again.

[ fourth example ] A

Referring to fig. 4, which is a schematic structural diagram of a readable storage medium according to a fourth embodiment of the present invention, the readable storage medium 300 is, for example, a non-volatile memory, and is, for example: magnetic media (e.g., hard disks, floppy disks, and magnetic tape), optical media (e.g., CDROM disks and DVDs), magneto-optical media (e.g., optical disks), and hardware devices specially constructed for storing and executing computer-executable instructions (e.g., Read Only Memories (ROMs), Random Access Memories (RAMs), flash memories, etc.). The readable storage medium 300 has stored thereon computer-executable instructions 310. The readable storage medium 300 may be executable by one or more processors or processing devices to execute the computer-executable instructions 310 to cause an air conditioner in which it is located to implement the air conditioner defrost control method as described in the first embodiment.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A defrosting control method of an air conditioner is characterized by comprising the following steps:

controlling the air conditioner to be in a heating mode;

obtaining outdoor environment temperature value T_aoAnd a continuous heating time period t;

t is not more than-5 DEG C_aoAnd controlling the air conditioner to perform forced defrosting according to the t when the temperature is less than or equal to 7 ℃ and the air conditioner keeps a heating mode.

2. The air conditioner defrosting control method according to claim 1, wherein the air conditioner is controlled to perform forced defrosting according to the t; the method comprises the following steps:

at t₁T is less than or equal to t, and when a shutdown instruction or a warm shutdown instruction is received; wherein, t is₁Is a first preset time length;

and controlling the air conditioner to perform forced defrosting and then shutdown or shutdown to a temperature.

3. The air conditioner defrost control method of claim 2, wherein said t₁Within 30-60 min.

4. The air conditioner defrosting control method according to claim 2, wherein the air conditioner is controlled to perform forced defrosting according to the t; further comprising:

at t₂When T is less than or equal to T, obtaining indoor environment temperature value T_nAnd indoor environment target temperature value T_n'; wherein, t is₂Is greater than t₁Second preset duration；

At the T_n' with said T_nDifference value Δ T of_n≤T₁When the defrosting is needed, the air conditioner is controlled to perform forced defrosting; wherein, T is₁Is a preset temperature difference value.

5. The air conditioner defrost control method of claim 4, wherein the T₁At a temperature of 1-3 ℃.

6. The air conditioner defrosting control method according to claim 4, wherein the air conditioner is controlled to perform forced defrosting according to the t; further comprising:

at t₃T and T are not more than T₁＜ΔT_nWhen the defrosting is needed, the air conditioner is controlled to perform forced defrosting; wherein, t is₃Is greater than t₂For a third predetermined time period.

7. The air conditioner defrost control method of claim 6, wherein the t₂At least 60min, and/or, the t is₃At least 90 min.

8. The air conditioner defrost control method of claim 1 wherein said T is ≦ 5 ≦ T_aoControlling the air conditioner to perform forced defrosting according to the t when the temperature is less than or equal to 7 ℃ and the air conditioner keeps a heating mode; the method comprises the following steps:

t is not more than-2 DEG C_aoAnd controlling the air conditioner to perform forced defrosting according to the t when the temperature is less than or equal to 5 ℃ and the air conditioner keeps a heating mode.

9. An air conditioner defrosting control device, comprising:

the heating module is used for controlling the air conditioner to be in a heating mode;

an acquisition module for acquiring outdoor environment temperature value T_aoAnd a continuous heating time period t;

a forced defrosting module for T being less than or equal to-5 DEG C_aoAnd controlling the air conditioner to perform forced defrosting according to the t when the temperature is less than or equal to 7 ℃ and the air conditioner keeps a heating mode.

10. An air conditioner comprising a memory storing a computer program and a packaged IC, wherein the computer program is read by and executed by the packaged IC, and the air conditioner implements the air conditioner defrost control method according to any one of claims 1-8.

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